KR20210041025A - Speaker unit and speaker unit - Google Patents

Abstract

The present invention relates to a speaker unit and a speaker device, wherein the main body of the speaker unit has a rectangular basin-shaped structure, and includes a suspension system, a magnetic circuit system having a ring-shaped magnetic gap, and a frame connecting the suspension system and the magnetic circuit system. The frame includes a suspension system and a magnetic circuit system, the magnetic circuit system is fixed within the frame, the suspension system includes a diaphragm and at least one voice coil connected to the bottom of the diaphragm, and the magnetic circuit system is a voice coil And at least one magnetic circuit module matched with, and one end of the voice coil is connected to the diaphragm through a voice coil frame, and the other end of the voice coil is suspended in a ring-shaped magnetic gap formed by the magnetic circuit module, and the voice The coil reciprocates and vibrates in a piston type along the axial direction within a ring-shaped magnetic gap, pushes the diaphragm, and vibrates to generate sound. The present invention uses a plurality of engines to drive the same diaphragm to vibrate, so that the vibrations are more balanced and calm, reduce nonlinear vibrations, control the size of the impedance (RE), and have a wide range of applications, and the structure It has excellent appearance and can secure sufficient heat dissipation.

Description

Speaker unit and speaker unit

The present invention relates to the field of electric speaker technology, and more particularly, to a speaker unit and a speaker device.

The speaker unit is a key element of the sound device, and its quality directly affects the sound quality effect of the sound device. Until now, the shape structures of each member of a general speaker unit (especially a bass speaker unit) are all circular structures. For example, the diaphragm is mostly conical diaphragm, and the conical diaphragm has a smaller vibrating effective area and lower acoustic energy conversion efficiency. In addition, when the circular diaphragm moves, divided vibrations in the radial and axial directions are generated, and accordingly, a large amount of interference harmonics is generated, thereby forming harmonic distortion. On the other hand, since most of the existing speakers are driven by a single engine and use an external magnetic type structure, nonlinear offsets are likely to occur while the voice coil is moving, and various distortion problems such as harmonic distortion and phase distortion occur. On the other hand, conventional speakers have low heat dissipation effect, resulting in voice coil debonding, short circuit or damage, or deformation of a diaphragm, center slice, etc., which affects the performance of the speaker.

On the other hand, as shown in Fig. 1, a linear sound source formed by a general professional line array is generally generated by a conical speaker or at least a low sound is generated by a conical speaker. The linear sound source is not a line array formed of pure cylindrical waves, but a compromise type line array including a spherical wave. _{The boundary curves (l 2} ) of the spherical waves on both sides of the array line (l ₁ ) represent an exponential gradient. Among the spherical waves radiated between the plurality of speakers, the intersection area S of adjacent wavefronts exhibits an exponential gradient in four directions, and the intersection area after the array of the plurality of wavefronts cannot be weakened. That is, since a plurality of spherical waves cannot be regularly coupled, it is easy to cause a congested sound field, cause interference, and affect the effective cover of the sound.

An object of the present invention is to solve at least one of the above-described defects, and the object is implemented through the following technical solutions.

The present invention provides a speaker unit. The main body of the speaker unit has a rectangular basin-shaped structure, and includes a suspension system, a magnetic circuit system having a ring-shaped magnetic gap, and a frame connecting the suspension system and the magnetic circuit system,

The frame accommodates the suspension system and the magnetic circuit system, the magnetic circuit system is fixed in the frame, the suspension system includes a diaphragm and at least one voice coil connected to the bottom of the diaphragm, and the magnetic circuit system The circuit system includes at least one magnetic circuit module matching the voice coil, one end of the voice coil is connected to the diaphragm through a voice coil frame, and the other end of the voice coil is the ring formed of the magnetic circuit module. It is suspended in a magnetic gap of the shape, and the voice coil vibrates in a piston-like manner along an axial direction within the magnetic gap of the ring shape, pushing the diaphragm to vibrate, thereby generating sound.

In addition, the suspension system includes a center slice and a crimp, and the diaphragm includes a diaphragm bottom, a diaphragm body, and a diaphragm edge sequentially connected from the inside to the outside, wherein the diaphragm bottom is the center slice outside the voice coil frame. And fixed on the frame, the diaphragm edge is connected to the edge of the frame through the crimp, the diaphragm bottom and the diaphragm edge are connected through the diaphragm body, and the diaphragm body is a plurality of irregular facets It is formed in a three-dimensional array structure consisting of, and the three-dimensional array structure is distributed over the entire surface of the diaphragm body, and the adjacent irregular facets are connected to each other through edges.

In addition, the diaphragm further includes a diaphragm chassis installed at the bottom of the diaphragm, the diaphragm chassis is adhered to a rear surface of the diaphragm bottom, and the diaphragm is fixedly connected to the frame through the diaphragm chassis, and on the diaphragm chassis A voice coil connection part connected to the voice coil frame is installed.

In addition, the voice coil is wound on an outer circumference of one end of the voice coil frame, and the other end of the voice coil frame is connected to the diaphragm chassis through the voice coil connection part.

In addition, the irregular facet is a triangular facet, and the shapes and sizes of the plurality of triangular faces are not all the same.

In addition, the magnetic circuit module includes a magnet bowl, a magnetic material and a magnetic conductive plate, the magnet bowl is mounted on the bottom of the frame, the magnetic material and the magnetic conductive plate are disposed in the magnet bowl, one end of the magnetic material Is in close contact with the bottom of the magnet bowl, the other end of the magnetic material is in close contact with the magnetic conductive plate, the ring-shaped magnetic gap is formed between the magnet bowl and the magnetic material and the magnetic conductive plate, and the voice coil is It is installed in a ring-shaped magnetic gap.

Further, a plurality of the voice coils and a plurality of the magnetic circuit modules are installed, the cross-sectional shapes of the voice coils and the magnetic circuit modules are all rectangular, and the ring-shaped magnetic gaps are rectangular ring-shaped magnetic gaps.

In addition, the plurality of voice coils are connected to each other through an electric circuit, and the electric circuit includes a series circuit, a parallel circuit, or a series-parallel integrated circuit.

In addition, a circuit board for supplying current to the voice coil is installed at the bottom of the diaphragm, and a plurality of the voice coils are respectively connected to the circuit board through lead wires.

In addition, the voice coil is manufactured by winding a single sheet in the form of a strip, and the single sheet includes a printed flexible circuit board or a metal foil strip having an insulating surface.

In addition, the voice coil frame is a high-temperature-resistant material, the high-temperature-resistant material includes a high-temperature injection-resistant material or a hard ceramic material, and the voice coil frame has an integral structure.

In addition, the center slice has a rectangular ring-shaped structure, the center slice includes a base layer, a flexible out-ring, and a rigid inner ring, and the out-ring is installed at one side close to the frame in the base layer, and the inner The ring is installed on one side of the base layer close to the voice coil, and the base layer, the out ring, and the inner ring are integrally molded through a stress pressure.

In addition, the crimp has a rectangular ring-shaped structure, the cross-sectional shape of the crimp is a ripple shape, the ripple shape includes at least one break and at least one break, and the different shapes of the break and the break are not completely the same. In addition, a plurality of reinforcing ribs for reinforcing the crimp are installed on the crimp, and the adjacent reinforcing ribs are spaced apart by a predetermined distance.

In addition, the frame has an integral structure, the edge of the frame uses an arc transition, a support mechanism that changes gradually is installed on the side of the frame, and a ventilation mechanism is installed at the bottom of the frame.

The present invention further provides a speaker device comprising at least one of the above-described speaker units.

Further, a plurality of the speaker devices form a linear array speaker system.

The present invention has the following advantageous effects.

(1) In the present invention, the speaker unit is installed in a rectangular fillet corner structure to optimize the structure of the speaker, and the edge of the speaker is excessive in a smooth curve or curved surface, and has excellent appearance and practicality.

(2) The present invention uses a diaphragm of a rectangular basin-shaped structure and forms the diaphragm body with a three-dimensional geometric structure composed of irregular triangular facets, thereby increasing the stiffness coefficient and magnetic attenuation of the diaphragm, as well as increasing air disturbance. And improve audio conversion. On the other hand, the diaphragm of the rectangular basin-shaped structure reduces mechanical distortion loss and group delay, and also reduces split vibration, nonlinear motion, sound focusing and front room effects.

(3) The speaker unit of the present invention makes the motion of the speaker closer to the linear motion by cooperatively combining multiple engines and driving the diaphragm to vibrate, thereby reducing nonlinear distortion, and making the motion more balanced. Make it come true and be calm. By controlling the _{impedance (R E} ) and inductance (L _VC ) through various freely connected voice coil electrical circuits, _{it is possible to reasonably control Q ES} , Q _MS , and Q _TS , effectively reducing power consumption, and speaker. Improves efficiency. In addition, it is possible to reduce the resonant frequency (f _{s ).} A plurality of engine modules interact and limit each other, thereby reducing various distortions and improving the performance of a speaker. On the other hand, by expanding the size range, such as the diameter of the speaker unit, the application range of the speaker is expanded.

(4) The present invention reduces the nonlinearity of the piston motion, improves the performance of the speaker, and improves the heat dissipation effect of the voice coil by changing the structure of the voice coil and the voice coil frame. In addition, by radiating heat through the guide flow and ventilation of the magnetic circuit, air circulation and circulation are strengthened and sufficient heat dissipation is ensured through heat dissipation design for the frame of the speaker.

(5) The frame of the present invention satisfies the demand for strength and mounting size at the time of support, lowers the weight and cost of the product, reduces various resonances that may occur in the frame, and improves the sound effect quality of the speaker. I can make it.

(6) In the present invention, by using a center slice that is press-molded of various materials, high stiffness in the radial direction of the center slice inner ring and compliance in the axial direction of the out ring can be effectively improved, and accordingly, the voice coil is nonlinearly offset. Is reduced, the resilience of the suspension system is increased, vibration in a large width is easy, and the power energy of the suspension system is increased to achieve high axial compliance, and also can effectively reduce the resonance frequency. Accordingly, the quality of the sound effect of the speaker is improved.

(7) The present invention effectively improves the radial stiffness of the crimp, while reducing harmonic resonance, thereby reducing the accessory diaphragm effect of the crimp and improving the sound effect quality of the speaker. Reinforcing ribs are further installed on the crimp to reinforce radial rigidity, increase the toughness, fatigue resistance strength, and service life of the crimp, while effectively suppressing resonance and harmonics.

Those of ordinary skill in the art will be able to clearly understand various other advantages and advantages by referring to the detailed description of the embodiments below. The accompanying drawings are only for the purpose of describing the preferred embodiments, and are not limited to the present invention. In addition, in all the accompanying drawings, the same members are indicated by the same reference numerals.
1 is a diagram showing a line array system composed of a spherical wave speaker.
2 is an exploded perspective view of a speaker unit according to an embodiment of the present invention.
3 is a perspective view of a speaker unit according to an embodiment of the present invention.
4 is a side view of a speaker unit according to an embodiment of the present invention.
5 is a plan view of a speaker unit according to an embodiment of the present invention.
6 is a bottom view of a speaker unit according to an embodiment of the present invention.
7 is a diagram illustrating the diffusion of sound waves during diaphragm vibration of a speaker unit according to an embodiment of the present invention.
8 is an assembly diagram of a diaphragm and a voice coil of a speaker unit according to an embodiment of the present invention.
9 is a structural diagram of an engine system of a speaker unit according to an embodiment of the present invention.
10 is a view showing the operation of the engine system of the speaker unit according to an embodiment of the present invention.
11 is an electric circuit connection diagram of a voice coil of a speaker unit according to an embodiment of the present invention.
12 is a structural diagram of a center slice of a speaker unit according to an embodiment of the present invention.
13 is a partial structural diagram of a crimp of a speaker unit according to an embodiment of the present invention.
14 is a cross-sectional structural diagram of a crimp of a speaker unit according to an embodiment of the present invention.
15 is a diagram showing a linear array system composed of a cylindrical speaker according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present application will be described with reference to the accompanying drawings. Although exemplary embodiments of the present application are shown in the accompanying drawings, it should be understood that the present application is not limited to the embodiments described herein and may be implemented in various forms. On the other hand, these embodiments are provided to more clearly understand the present application and to completely convey the scope of the present application to those skilled in the art.

2 to 6 are structural diagrams of a speaker unit provided in an embodiment of the present invention. 2 to 6, the main body structure of the speaker unit 100 provided in the present invention is a rectangular basin type structure, a suspension system, a magnetic circuit system having a magnetic gap in a rectangular ring shape, and the suspension system. And a frame 10 connecting the magnetic circuit system to the magnetic circuit system, and the frame 10 accommodates a suspension system and a magnetic circuit system, the magnetic circuit system is fixed in the frame 10, and the suspension system is a diaphragm 20 , At least one magnetic circuit module comprising at least one voice coil 31 for driving the center slice 50, the crimp 60 and the diaphragm 20, and the magnetic circuit system is matched with the voice coil 31 Including 40, the magnetic circuit module 40 provides a magnetic field for movement of the voice coil 31, and one end of the voice coil 31 is at the bottom of the diaphragm 20 through the voice coil frame 32. Is fixedly connected to, and the other end of the voice coil 31 is suspended in the magnetic gap 44 formed in the magnetic circuit module 40, and when current is applied, the voice coil 31 is in the axial direction within the magnetic gap 44. By pushing the diaphragm 20 to vibrate by reciprocating and vibrating in a piston type along the way, air is pushed to generate sound waves to generate sound.

The diaphragm 20 is an integral structure, and includes a diaphragm bottom 21, a diaphragm body 22, and a diaphragm edge 23 that are sequentially connected from the inside to the outside, and the diaphragm bottom 21 is a voice coil frame 32 ) It is inserted into the outer center slice 50 and fixed on the frame 10, the diaphragm edge 23 is fixedly connected to the edge of the frame 10 through the crimp 60, and the diaphragm bottom 21 and the diaphragm edge (23) is connected through the diaphragm body 22, the diaphragm body 22 is formed in a three-dimensional array structure consisting of a plurality of irregular facets, and the three-dimensional array structure is the entire surface of the diaphragm body 22 (front and (Including the back), and adjacent irregular facets are connected to each other through edges. In an embodiment, the irregular facet is a triangular facet, and the shapes and sizes of the plurality of triangular faces are not all exactly the same. The stable performance of the three-dimensional array structure made of irregular facets secures a solid support of the diaphragm 20, improves the stiffness coefficient of the diaphragm 20, and reduces mechanical distortion loss and divided vibration of the diaphragm 20. .

Specifically, taking the triangular faceted body 221 as an example, the edge of the triangular faceted body 221 and the edge shared by an adjacent triangle constitute the skeleton of the diaphragm 20, and the stiffness coefficient is large, so that it has a function of firmly fixing and supporting it. You can do it. At the same time, the triangular geometry itself has a stable structure. On the other hand, since each triangular geometry is located on a different plane and there is no plane that is likely to generate divided vibrations, the diaphragm 20 does not easily generate divided vibrations, thereby reducing harmonic distortion. The structures of the different triangular facets 221 are different from each other, and different triangular facets are staggeredly distributed on the surface of the diaphragm body 22, thereby restricting each other between the line and the face, so that divisional vibration cannot occur.

Fig. 7 is a diagram showing sound wave radiation from a diaphragm provided in an embodiment of the present invention. In the drawing, the solid arrow L represents the axial direction of the speaker diaphragm 20, the dotted arrow L ₁ represents the sound wave radiation direction perpendicular to the faceted body, and by the rectangular basin shape structure of the entire speaker diaphragm 20, The distance from the axis L of the speaker diaphragm 20 to the circumference is not uniform, and a concentration area cannot be formed, and at the same time, the triangular faceted body 221 is formed by a plurality of triangular facets 221 not located on the same plane. Since the vertical sound wave radiation directions L ₁ are made to be different from each other, it is possible to increase diffusion and reduce the front room effect, thereby reducing phase distortion.

On the other hand, in the formula V _D =S _D ×X _Max , V _D is the air discharge, S _D is the development area of the diaphragm 20, and X _Max is the maximum linear displacement in the magnetic gap of the voice coil. The diaphragm body 22 is a three-dimensional array structure, by increasing the development area of the diaphragm 20, the air particles disturbed by the diaphragm 20, that is, the amount of air discharged randomly increases, and the sound energy converted accordingly is Increase, and improve the audio conversion rate.

A dust cap 70 is further installed in the center of the front of the diaphragm bottom 21. The dust cap 70 is adhered to the center position of the diaphragm 20 to prevent dust from entering the magnetic gap 44 and affecting audio performance. At the same time, the dust cap 70 performs an active diffusion action, thereby reducing collision of air particles including sound waves, and reducing phase distortion and harmonic distortion due to collision.

When specifically implemented, the material used by the diaphragm 20 is mainly pulp, and carbon fibers and wool are more reddish at a certain ratio, and by denaturing the pulp, its service life, fatigue resistance ability, and self-damping are increased. .

As shown in Fig. 8, the bottom of the speaker diaphragm 20 has a flat structure, and there is no triangular rigid support, so that when assembling the diaphragm 20 and the frame 10, the diaphragm bottom 21 is not easily deformed. One diaphragm chassis 24 is installed in the diaphragm chassis 24, and the diaphragm chassis 24 has a certain rigidity. A mounting interface connected to the voice coil frame 32 is installed on the diaphragm chassis 24, and the diaphragm 20 and the voice coil frame 32 are quickly positioned through the diaphragm chassis 24, and the center slice 50 ) To the bottom of the frame 10, thereby lowering the difficulty of assembling the diaphragm 20, the voice coil frame 32, and the center slice 50, thereby lowering the assembly time and manufacturing cost of the entire speaker. A circuit board 241 connected to the voice coil 31 is further installed at the center of the diaphragm chassis 24 to provide an external connection current to the voice coil 31.

The voice coil 31 and the magnetic circuit module 40 constitute the engine system of the speaker unit 100 to provide power for the vibration of the diaphragm 20, and the voice coil 31 and the magnetic circuit module ( The number of 40) may be installed according to the size of the aperture of the speaker unit 100, and a single engine system or a multi-engine system may be used. The single engine system is composed of a single engine module consisting of one voice coil 31 and one magnetic circuit module 40, and the multi-engine system consists of a plurality of voice coils 31 and a plurality of magnetic circuit modules 40. It is composed of a combined array mode of a plurality of single engine modules. The plurality of voice coils 31 and the magnetic circuit module 40 are combined to form a multi-engine system, thereby pushing the same diaphragm 20 to vibrate together. In this embodiment, four voice coils 31 and four magnetic circuit modules 40 are installed in the speaker unit 100, and the different voice coils 31 are connected through an electric circuit.

In order to match the shape of the rectangular frame 10 and the diaphragm 20, and so that the magnetic gap 44 of the magnetic circuit system has a rectangular ring-shaped structure, the cross-sectional shape of the voice coil 31 and the magnetic circuit module 40 is All are composed of a rectangle, the rectangle includes a rectangle or a square, and the circumference of the rectangle is excessive as a fillet corner. By using the fillet corner transient, collision in the magnetic gap of the voice coil 31 can be reduced, and damage to the voice coil 31 can be reduced.

As shown in Fig. 9, taking a single engine system as an example, the structure of the voice coil 31 and the magnetic circuit module 40 will be described in detail. In a preferred embodiment, the voice coil 31 is formed by using a printed flexible circuit board (FPC) or by winding a strip of insulated metal foil on one side. Specifically, all of the printed flexible circuit board (FPC) or metal foil strips have a single sheet structure in the form of a strip. The strip-shaped sheet is wound on a rectangular cylindrical voice coil frame 32 to form a rectangular ring-shaped voice coil 31, and the voice coil 31 is diaphragm 20 through the voice coil frame 32. Is connected with the bottom of. When using the printed flexible circuit board (FPC), the flexible circuit board includes a conductive layer and an insulating layer, and when winding, one side of the insulating layer is in close contact with the voice coil frame 32. When specifically implemented, a plurality of transverse conductive layers may be installed on the flexible circuit board (five are provided in this embodiment), and a plurality of conductive layers are attached on the insulating layer, and are densely arranged to form a voice. It is wound on the outer periphery of the coil frame 32 to form a rectangular ring-shaped voice coil 31. When using a metal foil strip, the insulated side of the metal foil strip is in close contact with the voice coil frame 32. Voice coil 31 is thicker than ?湛? Since the strip-shaped sheet is wound and formed, the heat dissipation area is large, the heat dissipation effect of the voice coil 31 can be greatly improved, and damage to the voice coil 31 can be reduced. Meanwhile, the thickness is more than ?湛? The strip-shaped sheet is wound several times on the voice coil frame 32, so that the voice coil length can be increased. As can be seen from the formula F=BLI, when the ampere force (driving power) of the voice coil 31 increases, the sound conversion efficiency can be improved, where B is the average magnetic flux density inside the voice coil, and L is the voice coil. Length, I is the current. The thickness of the voice coil 31 after being wound-molded (thickness in which a strip-shaped sheet is wound and laminated) is 0.6 mm to 1.2 mm.

A lead wire is installed on the voice coil 31, one end of the lead wire is fixedly connected to the voice coil 31, and the other end of the lead wire is a free end, and is connected to the circuit board 241 installed on the diaphragm chassis 24. , Connected with external current. The lead wire is a signal connection end of the voice coil 31, and generally a metal conductor is used, and the lead wire is drawn out from the cross-sectional position of one end of the voice coil 31, and the line is disturbed and the line is cut when the voice coil 31 vibrates. It can reduce the phenomenon, improve the service life of the lead wire, and secure the voice coil quality.

The voice coil frame 32 uses a high temperature resistant material and is integrally processed and molded, for example, a high temperature resistant injection material or _{a hard ceramic material such as silicon nitride (Si 3} N ₄ ) or silicon carbide (SiC) may be used. The above-described material is light in weight, has excellent rigidity, has excellent heat dissipation effect, and implements accurate positioning of the voice coil 11, thereby reducing an assembly error rate. The greater the number of voice coils, the more complex the demands for precise positioning become, and the more stringent the precision requirements. When the arrangement method and position layout of the plurality of voice coils 31 at the diaphragm bottom 20 is determined, the mapping (projection) position at the bottom of the frame 10 of the engine system is determined, and the speaker unit 100 is accurately Implement assembly. Accurate positioning of the voice coil 31 reduces the distribution non-uniformity of the magnetic force, and reduces the damage of the voice coil 31 and nonlinear motion of the voice coil 31 due to magnetic circuit collision. On the other hand, a plurality of heat dissipation holes 321 distributed in an array are installed on the sidewall of the voice coil frame 32, so that heat generated from the voice coil 31 can be released in a timely manner, and at the same time, the voice coil frame 32 Weight can be reduced.

The magnetic circuit module 40 includes a magnet bowl 41, a magnetic body 42, and a magnetic conductive plate 43, but the magnet bowl 41 is mounted on the bottom of the frame 10, and the magnetic body 42 and the magnetic The conductive plate 43 is installed on the magnet bowl 41, the magnetic conductive plate 43 is fixed on the end surface of one end of the magnetic body 42, and there is a magnetic gap between the magnet bowl 41 and the magnetic conductive plate 43. 44 is formed, and the voice coil 31 is suspended within the magnetic gap 44. A plurality of heat dissipation holes are provided at the bottom of the magnet bowl 41 so that the amount of heat generated from the voice coil 31 can be discharged in a timely manner.

Specifically, as shown in Fig. 10, the magnetic circuit module 40 is an inner magnetic type structure, and compared to the external magnetic type structure, the inner magnetic type structure has a small volume, small space occupied, and reduces magnetic leakage. I can make it. One end of the magnetic body 42 is in close contact with the bottom of the magnet bowl 41, the other end of the magnetic body 42 is in close contact with the magnetic conductive plate 43, and the magnet bowl 41, the magnetic body 42, and the magnetic conductive plate ( 43) A ring-shaped magnetic gap 44 is formed between them, and the voice coil 11 is suspended in the magnetic gap 44, so that when a current is applied, the voice coil 31 is in the magnetic gap 44. It vibrates reciprocally along the axial direction of the magnetic body 42 and the magnetic conduction plate 43 (in the drawing, the direction of the double-headed arrow is the vibration direction of the voice coil 11), and in the magnetic gap 44 of the voice coil 11 The maximum linear displacement is X _Max . X _Max is equal to dividing by 2 after subtracting the height of the magnetic gap from the height of the voice coil, and it means the range of motion in one direction of the movable part, and if it is close to or exceeds the range, nonlinear motion is caused, resulting in harmonic distortion. Occurs.

The magnetic body 42 may provide a stronger magnetic field by using the NdFeB ferromagnetic material, thereby providing greater power for the motion of the voice coil 11. Meanwhile, the magnetic body 42 may also be made of other permanent magnetic materials. In the magnetic circuit system, the axial height range of the magnetic gap 44 is 4 to 8 mm, and the width of the magnetic gap 44 in the radial direction is 2 to 3 mm.

By installing the magnetic circuit module 40 in a rectangular structure, it is possible to increase the size of the magnetic body 42 in the vertical direction, thereby providing a stronger magnetic field to the magnetic circuit system, and at the same time, in the magnetic gap of the voice coil 31. You can increase the maximum linear displacement of X _Max. According to the formula V _D =S _D ×X _Max , it is possible to increase the air particles disturbed by the diaphragm 20 and increase the conversion of the audio. Meanwhile, four corners of the magnetic circuit module 40 having a rectangular structure are fillet corners, and rigid collisions in the magnetic circuit of the voice coil 31 can be prevented. When specifically implemented, the shape of the cross section of the voice coil 31 and the magnetic circuit module 40 may be other shapes such as a circle or an ellipse, and the present invention is not specifically limited.

When using a single engine system, the voice coil 31 is installed at the center of the diaphragm 20 to ensure uniformity of vibration. When using a multi-engine system, a plurality of voice coils 31 are distributed in a uniform array at the bottom of the diaphragm 20. In this embodiment, using a four-engine system, four voice coils 31 are arranged and distributed in the bottom of the diaphragm 20 vertically, left and right. Compared to a single engine speaker, when a multi-engine system is used, the size of a single engine module can be designed to be smaller, and in the case of the speaker unit 100 having a different aperture size and power, based on the size of the speaker unit 100 Since only the quantity of engine modules needs to be increased or decreased, the scope of application is wide. In a multi-engine system, different voice coils 31 of a plurality of engine modules are connected to each other through an electric circuit, and the electric circuit connection method includes an independent series circuit, a parallel circuit, and a series-parallel combined integrated circuit, _{The ideal impedance R E} can be obtained through different electrical circuit connection methods.

Fig. 11 is a connection diagram of an electric circuit of the four engine system provided in the embodiment of the present invention. In this embodiment, R _{E of each voice coil 31 is all 8 Ω, and the impedance R E} = R _E1 + R _E2 + R _E3 + that can be obtained by the four voice coils 31 through an independent series mode. R _E4 = (32)Ω, and the impedance that can be obtained through independent parallel mode R _E =1/(1/ R _E1 +1/ R _E2 +1/ R _E3 +1/ R _E4 )= 2Ω, Through the series-parallel combined integration mode shown in FIG. 9, first, the first voice coil 311 and the fourth voice coil 314 are vertically serialized, and the second voice coil 312 and the third voice coil 313 _{The final impedance R E} = 8Ω can be obtained by paralleling the two sets of voice coils after being serialized up and down, and each of the two sets of voice coils serialized up and down. As described above, since the voice coil 31 having all _{four R Es of 8 Ω can obtain a smaller impedance with R E} of 2 Ω through parallel, the current input to the voice coil 31 increases, and the voice It can be seen that the power of the coil 31 is increased. As the engine module increases, the method of connecting the electric circuit of the voice coil 31 becomes more complex, and _{the adjustment range of the impedance R E} becomes larger, so that the impedance R _E of the speaker unit 100 has controllability. do. In the present invention, the current in the voice coil 31 can be changed by directly changing the electrical circuit connection method, and there is no need to match the impedance by increasing a separate transformer, and there is no need to rely on a high power amplifier. It not only reduces consumption, but also reduces power distortion due to power transients, and improves speaker efficiency (η _o ).

On the other hand, referring to the _{formula Q TS} = (Q _ES × Q _MS ) ÷ (Q _ES + Q _MS ), changing any one parameter among _{Q ES} and Q _MS can affect _{Q TS. The} smaller ES, the smaller the impedance, and the higher the output power (N _Ο) and efficiency (η ₀ ). When Q _TS does not change, effectively reducing the parameter value of _{Q ES} increases the parameter value of _{Q MS.} Here, Q _ES denotes the electric Q value of the speaker unit resonance frequency point, that is, the _{ratio of the voice coil DC impedance (R E} ) and the motion impedance of the resonance frequency (fs) point. Q _MS is the mechanical Q value of the speaker unit resonance frequency point, that is, _{the ratio of the equivalent inductance of the mechanical dissipation impedance (R MS} ) of the unit support system to the motion impedance of the resonance frequency (fs) point, and Q _MS is the voice coil ( _{31) Means its own weight and mechanical resistance (R MS} ) of the suspension system (including the voice coil 31, the diaphragm 20, the center slice 50 and the hovering portion of the crimp 60). Q _TS means the total Q value at the resonant frequency point of the speaker unit, that is, the parallel value of _{Q ES} and Q _MS.

As the Q _MS value increases, the weight of the suspension system is greater, i.e. the weight of the diaphragm is greater among the tolerated suspension systems. If the unit mass is converted to unit area, that is, the diaphragm area is larger. As the weight and area of the diaphragm 20 increases, more air particles are disturbed, resulting in a lower resonant frequency fs. Therefore, as the number of engine modules increases, the impedance (R _E ) and inductance (L _VC ) are reasonably controlled _{, affecting Q ES} , Q _MS , and Q _TS , and lowering the resonant frequency (fs) more. You can improve your performance.

In a single engine system, the voice coil 31 is located at the center of the diaphragm 20, and the diaphragm 20 is displaced back and forth by vertical pushing of the voice coil 31. Therefore, the larger the distance from the voice coil 31 to the diaphragm edge 23 (including the hovering portion of the crimp 60), the smaller the direct vertical propulsion force of the voice coil 31 becomes, and the resulting mechanical distortion and consumption are also stronger. It becomes. In a multi-engine system, as the number of voice coils 31 increases, the arrangement of the voice coils 31 gradually expands toward the edge, the distance between the voice coils 31 and the diaphragm edge 23 decreases, and the mechanical It reduces distortion loss and group delay. By reducing the mechanical distortion loss and the group delay, the maximum displacement (X _Max ) in the magnetic gap 44 of the voice coil 31 maintains a larger linearity, and the resulting nonlinear motion and harmonic distortion are reduced, The vibration of the diaphragm 20 is made more linear within a certain vibration range, and the sexual performance of the speaker unit 100 is improved.

In a multi-engine system, a plurality of engine modules operate in combination, thereby pushing the same diaphragm 20 to vibrate, and at the same time, the plurality of engine modules also constrain each other, greatly reducing the distortion frequency of the speaker unit 100. When receiving the same audio signal at the same time, all of the collected voice coils 31 simultaneously perform linear piston motion and push to generate a series of complex vibrations in the diaphragm 20 closely connected thereto. The multi-engine system and the diaphragm 20 are combined with each other to perform high-magnification analysis on the audio signal, perform in-depth restoration for dynamic details, and to be completely diffused by the spatial array distribution of a plurality of engine modules. . According to the Fourier transform principle, the audio signal of the same channel is separated and superimposed multiple times in the frequency domain and the time domain wave mode according to the Fourier transform principle, and finally the electric-force-sound conversion process is completed, and multiple existing single engines Acquire the total sum corresponding to the cooperative operation of the speaker. That is, the complete wave state that these multi-engines complete together _{can be represented by the formula ∑E=E 1} +E ₂ +...+ En or ∑E=E×n, where ∑E is the sum of all engines of the speaker. , E is a single engine module, and n is the number of engine modules.

3 and 4, the frame 10 is used as a support structure for a suspension system and a magnetic circuit system, and includes a base 11, a first mounting holder 12, and a second mounting holder 13. Including, the fillet corner of the base 11 and the fillet corner of the first mounting holder 12 is connected through the first support mechanism 14, the fillet corner of the first mounting holder 12 and the second mounting holder The fillet corners of 13 are connected through a second support mechanism 15, and both the first support mechanism 14 and the second support mechanism 15 have a parabolic structure, and the first support mechanism 14 and The thickness and angle of the supporting legs of the second supporting mechanism 15 are gradually changed.

The frame 10 is made of a hard material and is integrally molded through casting. In a preferred implementation, an injection material such as aluminum alloy or polyformaldehyde (POM) may be used to increase the rigidity of the frame 10 and improve the support strength and stability of the frame 10. The frame 10 can reduce the weight and manufacturing cost by using the frame structure as a whole.

The first support mechanism 14 can provide greater anti-distortion ability and stability for the magnetic circuit module 40, and the second support mechanism 15 has a greater distortion against vibration of the suspension system moving in the axial direction. Prevention ability and stability can be provided, and at the same time, the edges of the first support mechanism 14 and the second support mechanism 15 have a curved shape and are excellent in appearance.

The vibration of the suspension system is propagated on the frame 10 in a manner of moving masses to cause resonance of the frame 10, and the support legs of the first support mechanism 14 and the second support mechanism 15 have a flat surface. However, it is possible to reduce resonance due to natural frequencies by installing in a structure whose thickness gradually changes. Meanwhile, the cross section of the first support mechanism 14 and the second support mechanism 15 is a planar formed by a hyperbolic curve, and the elevation is As a hyperbolic surface, it blocks displacement and propagation due to mass movement, reduces resonance, and improves the sound effect quality of the speaker. On the other hand, the edge of the frame 10 minimizes the boundary line by using fillet corner transients and reduces resonance due to harmonic frequencies having the same wavelength as the boundary size.

A ventilation passage 111 is installed in the center of the bottom of the base 11 of the frame 10, and a ventilation hole 112 corresponding to the heat dissipation hole of the magnet bowl 41 is further installed around the ventilation passage 111 And, the ventilation passage 111 installed in the center can effectively reduce direct stress during vibration of the diaphragm 20 and reduce force resistance. The air passage formed by the magnetic gap 44, the heat dissipation hole at the bottom of the magnet bowl 41 and the ventilation hole 112 of the frame 10 may increase airflow circulation and improve the ventilation heat dissipation effect. A heat dissipation sheet 113 for enhancing heat dissipation is installed on the side of the base 11.

The diaphragm bottom 21 is fixed on the first mounting holder 12 of the frame 10 through the center slice 50, the diaphragm edge 23 has a rectangular ring-shaped structure protruding to the outside, and the diaphragm edge 23 ) Is mounted on the second mounting holder 13 of the frame 10 through the crimp 60. _{The center slice 50 and the crimp 60 provide compliance (C MS} ), resilience and resistance (R _MS ) actions to the diaphragm 20 and the voice coil 31 that form the suspension system together with themselves, thereby providing a suspension system. It can be made to maintain the linear piston type of motion when vibrating.

As shown in Fig. 12, the center slice 50 has a rectangular ring-shaped structure, and includes a base layer 51, an out-ring 52 installed on one side close to the frame 10 from the base layer 51, and the base layer. It includes an inner ring 53 installed on one side close to the voice coil 31 at 51, and the out ring 52 is a compliance layer, strengthening the flexibility of one side connected to the frame 10, so that the suspension system is It makes it easy to vibrate greatly, increases the kinetic energy of the suspension system, improves axial compliance, and effectively reduces the _{resonant frequency f s.} The inner ring 53 is a rigid layer, and strengthens the rigidity of one side connected to the voice coil 31, reduces the nonlinear offset of the voice coil 31, and increases the resilience of the suspension system, thereby increasing the rigidity in the radial direction. Can be improved.

Ripple from the outside to the inside is provided on the center slice 50, and the ripple depth and the ripple width are gradually changed, and gradually decrease from the center toward the inside and outside sides, for example, as shown in FIG. Likewise, the second ripple 542 and the third ripple 5 43 are reached from the first ripple 541 toward both sides, respectively, and the ripple depth and width are gradually decreased. By using ripples with different depths and widths, resonance and stray vibration are effectively suppressed, and frame resonance due to the vibration of the suspension system is reduced.

The center slice 50 is press-molded using various materials, and the base layer 51 is made of a fibrous cloth, preferably a polyimide fibrous cloth, so that the center slice 50 has a certain mechanical stability and excellent resilience, It has the advantage of strong tearing ability and small influence of temperature and humidity. The out-ring 52 is made of rubber to reinforce compliance, and, preferably, silicon or butadiene styrene rubber is used to pressurize on the base layer 51 to increase flexibility and toughness, and the resonance frequency (f _s ) and suspension Frame resonance due to system vibration can be further reduced. The inner ring 53 is made of a fibrous material to increase stiffness by compressing it on the base layer 51, and preferably, using a polyimide fiber cloth, that is, more pressing a layer of polyimide fiber cloth on the base layer 51. do.

When specifically implemented, according to the size requirement of the speaker unit 100, if stronger recovery power and greater resistance (R _MS ) are required, a plurality of center slices 50 may be installed, and a plurality of center slices (50) are stacked together, and a spacing pad is placed between adjacent center slices (50). It is connected to ensure that they do not collide with each other during vibration.

2, 13 and 14, the crimp 60 is a rectangular fillet corner crimp, which is matched and connected with the diaphragm edge 23, and the diaphragm 20 is bonded to the inner edge of the crimp 60. , The frame 10 is bonded to the outer edge of the crimp 60, and the cross-sectional shape of the crimp 60 is a ripple shape, and the ripple shape includes a plurality of breaks and breaks, and the shape of the breaks and breaks (depth and By not having the same width), it is possible to improve axial compliance and radial stiffness. For example, the shape of the ripple shape may be a one-bong two-goose shape (Fig. 14a) or a two-bong three-goose shape (Fig. 14b), and the depths and widths of each wave peak and wave curve are all formed differently, thereby suppressing the occurrence of harmonics. In other words, non-uniform wave peaks and arcs of wave curves suppress the transmission of partial harmonics. Here, the single-bong two-gok-shaped crimp 60 is applied to a speaker having a smaller engine stroke, and the two-bong three-goose-shaped crimp 60 is applied to a speaker having a larger engine stroke.

On the other hand, a plurality of reinforcing ribs 61 are installed in parallel to be spaced apart by a certain distance in the direction perpendicular to the wave peak and the wave cross section to reinforce the stiffness in the radial direction, and at the same time, effectively suppress the resonant harmonics, thereby disturbing the air. And reduce the interference of the crimp 60 against the diaphragm 20 vibration. The reinforcing rib 61 improves the toughness, fatigue resistance strength, and service life of the crimp 60. When specifically implemented, the reinforcing rib 61 may be installed on the upper surface of the crimp 60 or may be installed on the lower surface of the crimp 60.

In a preferred implementation, the crimp 60 uses styrene butadiene rubber synthesized from styrene and butadiene, and the butadiene styrene rubber has heat resistance, abrasion resistance, and aging resistance, and has excellent compliance and toughness, so that the stiffness and compliance of the crimp The ratio relationship may be further adjusted, but the axial motion of the diaphragm 20 may not be affected.

The present invention further provides a speaker device, wherein the speaker device includes at least one of the above-described speaker units.

Since the wavefront of the sound wave radiated by the rectangular speaker unit 100 in the air belongs to the cylindrical wave, a pure linear array can be generated, and accordingly, the speaker unit 100 of the present invention is directly aligned with the actual sound column type speaker system. Allows it to be used in the manufacture of array speaker systems. After the plurality of wavefront arrays, the intersection area is weakened, so that the speaker units 100 can be naturally coupled in a situation where there is no interference, thus maximizing the phase matching.

In FIG. 15, the speaker device 200 includes two speaker units 100, and a plurality of speaker devices 200 are arranged up and down to form a linear array speaker system, and the direction of the dotted arrow in the drawing is the radiation of sound waves. Direction. The boundary line on both sides of the array line (l ₁ ^' _{) is a straight line (l 2} ^' ) parallel to it, that is, the wavefront is a flat surface, forming a sound column of a large wavefront after a plurality of wavefront arrays, and the intersection of adjacent wavefronts after a plurality of wavefront arrays weaken the area (S ^') and a plurality of cylindrical wave to be coupled consistently.

Specifically, in the description of the present invention, the terms “first” and “second” are for distinguishing between only one entity or operation and another entity or operation, and any such actual relationship between such entities or operations. Or it does not require or imply that an order exists.

Specifically, in the description of the present invention, the terms “mounting”, “connecting to each other”, and “connecting” should be understood in a wide range, and for example, may be communication between two elements, or may be direct connection, and , It may be an indirect connection through an intermediate medium, an electrical connection or a signal connection, and those skilled in the art will be able to understand the specific meaning of the above-described terms according to specific circumstances.

The above description is only a more preferred specific embodiment of the present invention, the protection scope of the present invention is not limited thereto, and a person skilled in the art can easily predict changes or substitutions within the technical scope disclosed in the present invention. And, all of these should be included within the scope of the present invention. Therefore, the protection scope of the present invention should be based on the protection scope of the above-described claims.

100: speaker unit 10: frame
11: base 12: first mounting holder
13: second mounting holder 14: first support mechanism
15: second support mechanism 111: ventilation passage
112: ventilation hole 113: heat dissipation sheet
20: diaphragm 21: diaphragm bottom
22: diaphragm body 221: triangular icosahedron
23: diaphragm edge 24: diaphragm chassis
241: circuit board 31: voice coil
32: voice coil frame 311: first voice coil
312: second voice coil 313: third voice coil
314: fourth voice coil 321: heat dissipation hole
40: magnetic circuit module 41: magnet bowl
42: magnetic body 43: magnetic conduction plate
44: magnetic gap 50: center slice
51: base layer 52: out ring
53: inner ring 541: first ripple
542: second ripple 543: third ripple
60: crimp 61: reinforcing rib
70: dust cap 200: speaker unit

Claims (15)

In the speaker unit,
The main body of the speaker unit has a rectangular basin-shaped structure, and includes a suspension system, a magnetic circuit system having a ring-shaped magnetic gap, and a frame connecting the suspension system and the magnetic circuit system,
The frame accommodates the suspension system and the magnetic circuit system, the magnetic circuit system is fixed in the frame,
The suspension system includes a diaphragm and at least one voice coil connected to the bottom of the diaphragm,
The magnetic circuit system includes at least one magnetic circuit module matching the voice coil,
One end of the voice coil is connected to the diaphragm through a voice coil frame, and the other end of the voice coil is suspended in the ring-shaped magnetic gap formed by the magnetic circuit module,
The voice coil reciprocates and vibrates in a piston type along an axial direction within the ring-shaped magnetic gap, pushes the diaphragm, and vibrates to generate sound,
The suspension system includes a center slice and a crimp,
The diaphragm includes a diaphragm bottom portion, a diaphragm body, and a diaphragm edge sequentially connected from the inside to the outside,
The diaphragm bottom is fitted on the center slice outside the voice coil frame and fixed on the frame,
The diaphragm edge is connected to the edge of the frame through the crimp,
Between the diaphragm bottom and the diaphragm edge is connected through the diaphragm body,
The diaphragm body is formed in a three-dimensional array structure consisting of a plurality of irregular facets,
Wherein the three-dimensional array structure is distributed over the entire surface of the diaphragm body, and the adjacent irregular facets are connected to each other through edges. The method of claim 1,
The diaphragm further includes a diaphragm chassis installed at the bottom of the diaphragm, the diaphragm chassis is adhered to a rear surface of the diaphragm bottom, the diaphragm is fixedly connected to the frame through the diaphragm chassis, and the diaphragm chassis A speaker unit, characterized in that a voice coil connection part connected to the voice coil frame is installed. The method of claim 2,
The voice coil is wound on an outer circumference of one end of the voice coil frame, and the other end of the voice coil frame is connected to the diaphragm chassis through the voice coil connection part. The method of claim 1,
The irregular facet is a triangular facet, and the shapes and sizes of the plurality of triangular faces are not completely the same. The method of claim 1,
The magnetic circuit module includes a magnet bowl, a magnetic material and a magnetic conductive plate, wherein the magnet bowl is mounted on the bottom of the frame, the magnetic material and the magnetic conductive plate are disposed in the magnet bowl, and one end of the magnetic material is the In close contact with the bottom of the magnet bowl, the other end of the magnetic material is in close contact with the magnetic conductive plate, the ring-shaped magnetic gap is formed between the magnet bowl and the magnetic material and the magnetic conductive plate, and the voice coil has the ring shape. Speaker unit, characterized in that installed in the magnetic gap of. The method of claim 1,
A plurality of the voice coils and a plurality of the magnetic circuit modules are installed, the shape of the cross section of the voice coil and the magnetic circuit module are both rectangular, and the ring-shaped magnetic gap is a rectangular ring-shaped magnetic gap. Speaker unit. The method of claim 6,
A speaker unit, characterized in that the plurality of voice coils are connected to each other through an electric circuit, and the electric circuit comprises a series circuit, a parallel circuit, or a series-parallel integrated circuit. The method of claim 6,
A speaker unit, characterized in that a circuit board for supplying current to the voice coil is installed at the bottom of the diaphragm, and the plurality of voice coils are respectively connected to the circuit board through lead wires. The method of claim 3,
The voice coil is manufactured by winding a single sheet in the form of a strip, and the single sheet includes a printed flexible circuit board or a metal foil strip having an insulating surface. The method of claim 3,
The voice coil frame is a high-temperature-resistant material, the high-temperature-resistant material includes a high-temperature injection-resistant material or a hard ceramic material, and the voice coil frame has an integral structure. The method of claim 1,
The center slice has a rectangular ring-shaped structure, the center slice includes a base layer, a flexible out ring, and a rigid inner ring, and the out ring is installed on one side close to the frame in the base layer, and the inner ring is A speaker unit, characterized in that it is installed on one side of the base layer close to the voice coil, and the base layer, the out ring, and the inner ring are integrally molded through repressurization. The method of claim 1,
The crimp has a rectangular ring-shaped structure, the cross-sectional shape of the crimp is a ripple shape, the ripple shape includes at least one break and at least one break, and the different shapes of the break and the break are not completely the same, A speaker unit, characterized in that a plurality of reinforcing ribs for reinforcing the crimp are installed on the crimp, and the adjacent reinforcing ribs are spaced apart by a predetermined distance. The method of claim 1,
The frame is a one-piece structure, the edge of the frame uses an arc, a support mechanism that changes gradually on the side of the frame, and a ventilation mechanism is installed at the bottom of the frame. Speaker unit,
The speaker device, characterized in that it comprises at least one speaker unit according to any one of claims 1 to 13. The method of claim 14,
A speaker device, characterized in that the plurality of speaker devices are capable of forming a cylindrical wave linear array speaker system.

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